Biomechanical Analysis of Ongoing Digital Prosthetic Amputee above Knee

Análisis de biomecánica digital en marcha protésica de paciente con amputación por encima de rodilla

Published 2009-06-30

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Vol. 7 No. 11 (2009)
Section
Estudio de Caso
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Benavidez Noguera, C. C., & Torres Ruiz, A. (2009). Biomechanical Analysis of Ongoing Digital Prosthetic Amputee above Knee. NOVA, 7(11). https://doi.org/10.22490/24629448.422
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https://doi.org/10.22490/24629448.422
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Cristian Camilo Benavidez Noguera
    Andrea Torres Ruiz
      Show authors biography
      This research, conducted at the BIOMED Digital Biomechanics Laboratory, shows a case study of a patient with amputation above the knee and the monocentric knee mechanism, which employs optoelectronic systems to capture the movement and force transducers plates to obtain data on kinetics and kinematics of the limb. The results were analyzed to try to recognize the major patterns, characteristics and possible improvements in gait, which could provide some basis for the future design of artificial limbs, so they are increasingly functional and similar to the pattern of normal gait.

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      1. Bateni H, Olney SJ. Kinematic and kinetic Variations of Below-Knee Amputee Gait. Prosthet Orthot Int. 2002;1:2-10.
      2. Piaza J, Delp S. Three Dimensional Dynamic Simulation of Total Knee Replacement Motion during a Step-Up Task. J Biomech Eng. 2001;123:599-606.
      3. Perry J. Gait analysis: Normal and Pathological Function. NJ: Slack Incorporated 1992;4-20.
      4. Trew M, Evertt T. Fundamentos del movimiento Humano. Ed. 5, Barcelona Masson; Capítulo:Biomecánica del movimiento humano. 2006.
      5. Fucci S. Biomecánica del aparato locomotor aplicada al acondicionamiento muscular. Ed. IV, Madrid Elsevier. 2003.
      6. Ozkaya Nihat. Fundamentals of Biomechanics. Equilibrium, motion and deformation. Ed. 2. Springer-Verlag. 1999;20-40.
      7. Sánchez J. Biomecánica de la marcha humana normal y patológica. Ed. Instituto de biomecánica de Valencia. 1999;253.
      8. Raimondi P. Cinesiología y psicomotricidad: modelo psicomotor, análisis del movimiento, morfotipología humana. Ed. Pardiotribo, Barcelona. Capítulos 3 y 6.1999.
      9. Campione E, Véronis J. A statistical study of pitch target points in five languages. In: Proc. of the 5th International Conference on Spoken Language Processing, Prosody and Emotion 5. 1998.
      10. Ronald Valmassi. Clinical biomechanics of the lower extremities. New York Mosby. Capítulos 1-2.1996.
      11. Burstein A, Wright T. Fundamentals of orthopaedic biomechanics. Ed. Baltimore, London, Williams y Wilkins, 1994.
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      13. DOI: http://dx.doi.org/10.22490/24629448.422
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